Linear and nonlinear optical properties surface plasmon polariton localization in plasmonic crystal metallic nanowires

Functionality and spatial concentration of light in periodic and disordered plasmonic crystal metallic nanowires are investigated under Kerr nonlinearity. The results show that nonlinear transverse localization of surface plasmon polaritons (SPP) in a periodic and disordered array of nanowires embed...

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Bibliographic Details
Published in:Physics letters. A 2023-03, Vol.463, p.128665, Article 128665
Main Authors: Ghadi, Amin, Habibi, Forouzan, Mirzanejhad, Saeed
Format: Article
Language:English
Subjects:
Anderson localization
Nanowire
Nonlinearity
Plasmonic
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Summary:Functionality and spatial concentration of light in periodic and disordered plasmonic crystal metallic nanowires are investigated under Kerr nonlinearity. The results show that nonlinear transverse localization of surface plasmon polaritons (SPP) in a periodic and disordered array of nanowires embedded in the Kerr medium changes with incident input wave amplitude (A). We study periodic and diagonal disordered nanowire arrays and study the propagation of SSPs under different inputs by solving nonlinear coupling relations. Finally, off-diagonal disordered nanowire arrays are studied. The results show that localization and effective beamwidth of the SPPs increases with an increase in their input amplitudes. Also, the SPPs become more localized with increase of diagonal (δr) and off-diagonal disorder (δd) into the nanowire arrays. Controlling SSPs' localization in the nanowire array using their input amplitude provides a high functional sub-wavelength device that can be utilized in future applications of nanophotonics functions. •Nonlinear properties of system of embedded metallic nanowires in Kerr medium is studied.•Localization of surface plasmon polaritons (SPP) change with incident intensity.•Transverse effective beamwidth is controlled by input intensity.•Controlling of SPP provide functional sub-wavelength device.•The results can be utilized in future of nanophotonic functions.
ISSN:0375-9601
1873-2429
DOI:10.1016/j.physleta.2023.128665